---
title: "Automatic Statistical Identification in Complex Spectra (ASICS)"
author: "Gaëlle Lefort, Rémi Servien and Nathalie Vialaneix"
date: "`r Sys.Date()`"
output: rmarkdown::html_vignette
package: ASICS
vignette: >
%\VignetteIndexEntry{ASICS}
%\VignetteEncoding{UTF-8}
%\VignetteEngine{knitr::rmarkdown}
editor_options:
chunk_output_type: console
---
## Package description
The **R** package `ASICS` is a fully automated procedure to identify and
quantify metabolites in $^1$H 1D-NMR spectra of biological mixtures
(Tardivel *et al.*, 2017). It will enable empowering NMR-based metabolomics by
quickly and accurately helping experts to obtain metabolic profiles. In addition
to the quantification method, several functions allowing spectrum
preprocessing or statistical analyses of quantified metabolites are available.
The full ASICS User's Guide is available after installing the package. It can be
opened with:
```{r userguide, warning=FALSE}
library(ASICS)
ASICSUsersGuide(view = FALSE)
```
## Quick overview of main functions
Data are imported in a data frame from Bruker files with the
`importSpectraBruker` function.
```{r data_import, results='hide'}
current_path <- system.file("extdata", "example_spectra", package = "ASICS")
spectra_data <- importSpectraBruker(current_path)
```
Then, from the data frame, a `Spectra` object is created. This is a required
step for the quantification.
```{r create_spectra, results='hide'}
spectra_obj <- createSpectra(spectra_data)
```
Identification and quantification of metabolites can now be carried out using
only the function `ASICS`.
```{r quantification}
to_exclude <- matrix(c(4.5, 10), ncol = 2)
resASICS <- ASICS(spectra_obj, exclusion.areas = to_exclude, verbose = FALSE)
```
Some analysis functions can be carried out on the quantification results. More
details can be found in the user's guide with the use of a real dataset.
## References
Tardivel P., Canlet C., Lefort G., Tremblay-Franco M., Debrauwer L., Concordet
D., Servien R. (2017). ASICS: an automatic method for identification and
quantification of metabolites in complex 1D 1H NMR spectra. *Metabolomics*,
**13**(10): 109. https://doi.org/10.1007/s11306-017-1244-5